A380 Flight control intro

A380 Flight Controls overview

Presented by

Xavier Le tronAirbusFlight Controls

InfoPresentation atHamburg University of Applied Sciences27th September 2007Download this file from:http://hamburg.dglr.de

27th September 2007 Page 2 A

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A380 Flight Control and Guidance Systemsmain novelties

Aircraft configuration and control surfaces

Actuator technology

Power sources for Flight Controls

Flight Control Architecture and Computers

Back-up controls

Flight Control Laws

Conclusion : Flight Tests Findings


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Flight Control Surfaces

Slats (6x2)Droop Nose (2x2)

Flaps (3x2)

Ailerons (3x2)spoilers (8x2)

Rudders (x2)

Elevators (2x2)

Trimmable HorizontalStabilizer


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stall load weight A340/330 stall loadAilerons 13,5 T 35/65 kg 15,7/10 TSpoilers 21/14,5 T 25/65 kg 11/8,6 TElevators 18 T 40/80 kg 10,2 TRudders 22,5 T 100 kg 9,4 TTHSa* 85 T 380 kg 32,5T

*: loads on trim screw

Flight Controls: actuator characteristics


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A380 Flight Control and Guidance System : main novelties


Actuator technology



Back-up controls

Control Laws


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Primary Flight Control System Actuators : E(B)HA

Conventional servocontrolServovalve

Hyd.system(power)

Accumulator

Modeselectordevice

Ram

Hydraulic block

Electro-Hydrostatic Actuator (EHA)

Electronics

Modeselectordevice

Ram

Hydraulic blockMotor

Pump Electricalsystem(power)

Accumulator

Servovalve replaced by an electric

motor Pump

Electrical Back-up Hydraulic Actuator

(EBHA)

Electronics

Ram

Hydraulic block Hydraulicsystem(power)

Motor

PumpAccumulator Electricalsystem(power)

Modeselectordevice

ServovalveServocontrol in normal operation

EHA in back-up


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equipment status - overviewEHA experience 1989: first prototypes EHA/EMA

1992 : EBHA aileron first flight on A320 test aircraft (more than 100 fh)

1993/2000: full qualification process, development of large EHA

2000/2002: One EHA (inboard aileron) constantly flight tested on A340 MSN 1 (200 FH, 61 flights), in active and stand-by modes, start phases, thermal behaviour...

Primary Flight Controls


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Example: A380 EHA aileron

Hydraulic pump+ elec. motor

Electronic module


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Electro-Hydrostatic Actuator features

EHA hydraulically autonomous in flight: EHA includes a fluid reservoir in order to compensate

thermal dilatation and small external seepage

EHA fluid reservoir refilling rare, but possible through a connection between each EHA and one centralised circuit

(Filing operation only possible on ground)


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THSA DESIGN MAIN FEATURES

Secondary Nut

Lower Attachment

Ballscrew

GearboxElectricController

PrimaryNut

Hydraulic ValveBlock

End stopHydraulic Motor Electric

Motor

Upper Attachment

Total length: 2.9 m


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THSA DESIGN MAIN FEATURES

A380 A340-600

A320

A380

A340-600

A320


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A380 Flight Controls: High Lift system

Flapsinner, mid and outer flap

droop nose

Slats

Flaps Lever

SFCC 2

SFCC

Wing Tip Brake

Wing Tip Brake

Motor Control Electronics

Slat PCU

Flap PCU

T-gearbox Asymmetry PositionPick-off unit

A380 High Lift movables and system mechanical components (similar concept as A340 Long Range)


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System Architecture

2 Drooped Nose Devices per wing (INBD wing) to improve aerodynamic performance (lift to drag ratio)

6 Leading Edge Slats per wing (MIDBD & OUTBD wing)

SLATS :supported by curved tracks ; driven by rotary actuators via rack & pinion

DROOPED NOSE DEVICES :Supported by hinged arms ; driven by rotary actuators via link & lever

A380 Flight Controls: High Lift system


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High Lift main novelties

Electric motor for SLAT PCU: due to 2H/2E concept

DC ElectricalMotor

HydraulicMotor

Output Shaft

Hydraulic Variable Displacement motors: flow consumption Fail-Safe Control Lever & Sensor: to improve S/F availability

(no Clean Wing Landing design objective)


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A380 Flight Control and Guidance System : main novelties


Actuator technology



Back-up controls

Control Laws


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A380 Hydraulic and electrical power sources

Green System1 Ground Electric Motor Pump (within pylon)2 Engine Driven PumpsReservoir and main generation components (within pylon)2 Engine Driven Pumps

Yellow SystemReservoir and main generation components (within pylon)2 Engine Driven Pumps1 Ground Electric Motor Pump (within pylon)2 Engine Driven Pumps

Electrical System 2:Generator 4Generator 3

Power center

Emergency System:Power center

E.RAT (Flap Track Fairing)

Electrical System 1:Power center

Generator 2Generator 1


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Survivability/robustness improvement:good fuse functionrecovery facility in case of power generation failuregood segregation of distributiondissimilarity on surface actuators power supplying

Redundancy improvement (2 electrical systems replace 1 hydraulic system)

Reduction of both hydraulic and electrical power consumption

From Blue Hydraulic system to electro-hydraulic actuators

Blue hydraulic circuit replaced by electro-hydraulic

actuators

Blue Electro-Motor Pumps decentralized within the

actuators

BUS BUS BUS BUS

ELEC PUMP

ELEC PUMP

ELEC PUMP

GEN 1

GEN 2

GEN 3

GEN 4

ELEC PUMP

ELEC PUMP

ELEC PUMP

System 1 System 2

GEN 1

BUS BUS BUS BUS

BLUE ELEC PUMP

BLUE ELEC PUMP

BLUE ELEC PUMP

GEN 2

GEN 3

GEN 4

System 1 System 2


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Electro-hydraulic actuators use Performances

EHA : same performances as adjacent servocontrol,EBHA : same performances in hydraulic mode, reduced deflection rate

in electrical mode. Electrical mode Activation logics:

In Normal flight: No EHA or EBHA operation (damping & hydraulic mode)

in case of High surface deflection or deflection rate : double pressurisation of hydraulic actuators or E(B)HAs

Failure cases with possible use of EHA and/or EBHA : Single or double hydraulic failure, One engine inoperative, Total engine flame-out (with electrical RAT), Engine burst ...


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A380 Flight Control and Hydraulic System : main novelties


Actuator technology



Back-up controls

Control Laws


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A380 Flight Control System Architecture

2H/2E architecture4 dissimilar power systems to actuate the moving surfacesAircraft controllable from one power systemrobust architecture (engine rotor burst, structural damages )

Electrical RAT supplying EHA and EBHA in case of total engine flame-out.

No Mechanical Control (Trim Hand Wheel replaced by Switches)

Improvement of Auto-Pilot availability (computers + Control Unit)


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E2G Y

S3 S1P3 P1 P2

B BS3S2 S1 S2S2 S1S1 S3

G YG YGY G Y

12345678

GY G Y G YGY

1 2 3 4 5 6 7 8SPOILERS SPOILERS

S2 S3P2S2 P1Y G

AILERONSO/B Med I/B

YYG

AILERONSO/BMedI/B

G G

Speed brakes, Ground spoilers

Roll surfaces

S3 P3 S1 S3P3 P1S1 S2S2E1 E1

P2S3E2 E2

P2 P3 P2P3Y

(Colors on E1, E2 and E3 for representationpurposes only, no engineering).

G

Conventional hydraulic servocontrol.

EHA, Electro Hydrostatic Actuator.

EBHA, Electrical Backup Hydraulic Actuator.

E1 E2

GREEN hydraulic system

Y YELLOW hydraulic system

E1 E1 AC power (AC1ess side 1)

E2 E2 AC power (AC2ess side 2)

E3 E3 AC power (AC1 side 1)

P1, P2, P3,S1, S2, S3

Prim and Sec Flight Control Computers

E1E2

B B

B BCM ultimate backup control Reconfiguration arrow

Electrical Motor.E1E2 E1E2 YG

THS

P3P2 P1 P2

O/B I/B

YG

ELEVATORS

P2 P1

O/BI/B

THSA

P1

ELEVATORS

trimswitches

P3

B

GY

GY P1

P3E1

E1

P2E2

E3

B

B

VerticalStabilizer

UpperRudder

LowerRudder S3

S1

P1 S1

S2

Slats

G E1

FlapsG Y

PedalsFeel andTrim Unit

28VDC1ess 28VDC1

S3S1

Speed brakes, Ground spoilers

A380 Primary Flight Control System Architecture Baseline 1a Revised October 02

S2S1P2P1

S2 S1P2 P1

S1S3P1P3

S1 S3P1 P3

Command unit : unit A, unit B

Roll surfaces

A380 Flight Controls architecture


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Primary Flight Controls: Computers

3 PRIMary Flight Control and Guidance Computersintegration of Auto Flight (ex FGEC) and Flight Control (ex FCPC)

=> 3 Auto-Pilots 3 SECondary Flight Control Computers dissimilar Software and Hardware, simpler Control Laws

2 Slats & Flaps Control Computers (SFCC) Implementation with IMA:Flight Controls Data ConcentratorWeight & Balance monitoring Flight Control Unit back-upInterface through AFDX:

Software dataloading, Maintenance and warning data, Partial inter-system communication

Engines

FlightControl

SEC1COM MON

SEC2PRIM2

PRIM3SFCC2SFCC1

PRIM1

ADIRU1

ADIRU3

ADIRU2

FM3

FM2FM1 SW13

IOMIOM

SEC3

S_1_3

EEC1 EEC3

EEC2 EEC4

BA

A

B

A

B

BA

S_1_2S_1_1

COM MONCOM MON

COM MON COM MON COM MON

COM MONCOM MON


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A380 Flight Control and Hydraulic System : main novelties


Actuator technology



Back-up controls

Control Laws


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Primary Flight controls: Back-up ControlLogical evolution of A320 / A340 / A340-600 family:

Full Fly-By-Wire, with a Back-up as an additional precaution to keep control of the aircraft during temporary loss of: all Primary Flight Control computers all Electrical power supply

A320 : full FBW controls, mechanical Back-up (Pitch Trim & Rudder) A340/A330 : like A320, additional Yaw Damper to improve Dutch Roll damping even in Back-up mode (BYDU with hydraulic micro generator) A340-600 : like A340 for pitch, Rudder becomes fully Electrical

(BPS + BCM : Back-up Power Supply + Control Module) A380 : like A340-600 for Yaw control + BPS+BCM also power Electrical Pitch Back-Up (elevators) linked to side-stick Electrical Roll Back-Up (ailerons) linked to side-stick Pitch Trim (Wheel is replaced by Switches).


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Electrical Back-up control

UPPER

LOWER

RUDDER

Y

G

E3

YE1

E1

GE2

Outboard

THSELEVATORS ELEVATORS

Outboard Inboard Inboard

Y

E1 YG YG

G

E1 E2

E2

E2

BPS Green

G E2

SPOILERS

G

Y

Y YY Y

E1

GG G

G Y

E1 E2AILERONS

Inboard Medium Outboard

Y

SPOILERS

G

E1

Y YY Y

E2

G GG

G GY

E2 E1

Sidestick

Sidestick

Pitch trimswitches

BCM

Gyroq,r

GYBPS Yellow


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Electrical Back-up : BPS / BCM

Back-up Power Supply / Back-up Control Module

BPS contains:

A hydraulic motor An electrical power generator

The BCM consists of :

2 rate gyrometers,- Analog electronics performing:

- acquisition of pilot controls

- pitch, yaw and roll control law

- actuator control


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A380 Flight Control and Hydraulic System : overview


Actuator technology



Back-up controls

Control Laws


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Flight Controls Laws : main features

Same design philosophy as Airbus FBW: Normal Law with auto-trim, Flight Envelope protection Alternate Laws with Prot Lost, but still with auto-trim Direct law

Active Stability Control functions:

All levels of control laws (Normal, Alternate, Direct and evenBack-up) include a Yaw and Pitch damping function


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Flight Controls Laws : main features

A380 is the continuation of FBW developed since A320: normal load factor demand in pitch roll rate demand in roll, with automatic turn coordination & yaw damping with flight envelope protections (Stall, attitudes, over-speed)

Main A380 novelties compared to A340 family:

Y* law as lateral normal law: use of Side-Slip probes Load Alleviation functions specific to A380 Use of voters instead of switches for protections (AoA, High Speed, attitudes, )

Closer integration with Auto-Pilot (same computers)


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Conclusion: Flight Test findings

Generally the aircraft aerodynamics in the flight domain explored (VD & MD, aft & forward CG, light/heavy) are close to predictions

Use of E(B)HA: Checked gradually via Flight Test Instrumentation All Electrical Flight performed (Hydraulic pumps depressurised)

These achievements were enabled by early use of simulators (Aircraft 1, Aircraft 0) and continuous R&D.

A400M, A350 XWB and future Programmes will benefit from these achievements, plus R&T activities


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Conclusion: Future R&T activities

More Electrical Aircraft:use of EMA (Electro-Mechanical Actuators)Use of High Voltage DC network

Guidance Navigation & Control: Ground Automation: Brake-to-Vacate, Airport Navigation & Auto-Pilot Multi-Objective design (handling qualities, comfort, loads, fatigue, ) ATM 4D including specific approach patterns


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Thank you for your attention


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This document and all information contained herein is the sole property of AIRBUS S.A.S. No intellectual property rights are granted by the delivery of this document or the disclosure of its content. This document shall not be reproduced or disclosed to a third party without the express written consent of AIRBUS S.A.S. This document and its content shall not be used for any purpose other than that for which it is supplied.

The statements made herein do not constitute an offer. They are based on the mentioned assumptions and are expressed in good faith. Where the supporting grounds for these statements are not shown, AIRBUS S.A.S. will be pleased to explain the basis thereof.

A380 Flight Controls overviewA380 Flight Control and Guidance Systems main noveltiesFlight Control SurfacesFlight Controls: actuator characteristicsA380 Flight Control and Guidance System : main novelties Primary Flight Control System Actuators : E(B)HAPrimary Flight ControlsElectro-Hydrostatic Actuator featuresTHSA DESIGN MAIN FEATURESA380 Flight Controls: High Lift systemSystem ArchitectureHigh Lift main noveltiesA380 Flight Control and Guidance System : main novelties A380 Hydraulic and electrical power sourcesElectro-hydraulic actuators useA380 Flight Control and Hydraulic System : main novelties A380 Flight Control System ArchitectureA380 Flight Controls architecturePrimary Flight Controls: ComputersA380 Flight Control and Hydraulic System : main novelties Primary Flight controls: Back-up ControlElectrical Back-up controlElectrical Back-up : BPS / BCMA380 Flight Control and Hydraulic System : overview Flight Controls Laws : main featuresConclusion: Flight Test findingsConclusion: Future R&T activities

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A380 Flight control intro

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